Europe's last hunter-gatherers were more diverse than thought, DNA evidence suggests

The genetic legacy of European hunter-gatherers who lived thousands of years ago is more complex than had been thought, according to new genomic evidence reported in Current Biology on March 14. The new findings point to more diversity and mixture amongst hunter-gatherers, especially in the Iberian Peninsula of Southwestern Europe now recognized as Portugal and Spain, who had endured the Last Glacial Maximum (18,000-24,000 years ago) in southern refugia.

"We can confirm the survival of an additional Paleolithic lineage that dates back to the Late Ice Age in Iberia," says Wolfgang Haak of the Max Planck Institute for the Science of Human History. "This confirms the role of the Iberian Peninsula as a refuge during the Last Glacial Maximum, not only for fauna and flora but also for human populations."

Earlier evidence has shown that western and central Europe were dominated by ancestry associated with an ~14,000-year-old individual from Villabruna, Italy. That ancestry had largely replaced earlier ancestry more closely represented by 19,000-15,000-year-old individuals associated with what's known as the Magdalenian cultural complex.

But little was known about the genetic diversity in southern European refugia, including the Iberian Peninsula. To help fill in those gaps, Haak and colleagues including PhD student Vanessa Villalba now report new genome-wide data from 11 hunter-gatherers and Neolithic individuals from Iberia. The oldest are ~12,000-year-old individuals from Balmà Guilanyà in Spain.

The evidence shows that those individuals, including the oldest ~19,000-year-old previously published individual from El Mirón, carry dual ancestry from both Villabruna and the Magdalenian-related individuals. The discovery suggests an early connection between two potential refugia, they report, resulting in a genetic ancestry that survived in later Iberian hunter-gatherers.

"The hunter-gatherers from the Iberian Peninsula carry a mix of two older types of genetic ancestry: one that dates back to the Last Glacial Maximum and was once maximized in individuals attributed to Magdalenian culture and another one that is found everywhere in western and central Europe and had replaced the Magdalenian lineage during the Early Holocene, with the exception of the Iberian Peninsula," Haak says.

The findings come as something of a surprise because archaeologists had described distinct cultural changes appearing with the Holocene hunter-gatherers. The genetic evidence tells a somewhat different story, highlighted by an almost stable blend of two ancient source populations.

"At the same time, we can show that this genetic ancestry is also present in Early European farmers who expanded during the Neolithic period across Europe," Villalba says. "The fact that we can trace both hunter-gatherer lineages tells us that the newbies picked up this ancestry by mixing with the locals in Iberia."

"The signs of mixing between local hunter-gatherers and newly arriving farmers is fantastic to witness, even though we have virtually no overlap in the radiocarbon record in many areas of Iberia," she continues. "It just shows how much of the past we are still missing."

The researchers say that continued efforts to decipher the genetic structure of late hunter-gatherer groups across Europe will help to even better understand Europe's past and, in particular, the assimilation of a Neolithic way of life brought about by expanding farmers from the Near East during the Holocene. They plan to continue adding genomic data for ancient people to reconstruct the most detailed account of each region and epoch as possible.

-end-

This work was supported by the Max Planck Society and the European Research Council, the Gobierno de Aragon and the Fondo Social Europeo, Programa CAI-Ibercaja de Estancias de Investigacion, the Wenner-Gren Foundation, the College of Social and Behavioral Sciences of CSUN, and the CSUN Competition for Research, Scholarship, and Creative Activity Awards.

Current Biology (@CurrentBiology), published by Cell Press, is a bimonthly journal that features papers across all areas of biology. Current Biology strives to foster communication across fields of biology, both by publishing important findings of general interest and through highly accessible front matter for non-specialists. Visit: http://www.cell.com/current-biology. To receive Cell Press media alerts, contact press@cell.com.

Diversity without limitsNow, researchers at Temple and Oakland universities have completed a new tree of prokaryotic life calibrated to time, assembled from 11,784 species of bacteria.

Threatened by diversityPsychologist Brenda Major identifies what may be a key factor in many white Americans' support for Donald Trump.

Diversity as natural pesticideMonoculture crops provide the nutrient levels insect pests crave, explains a study led by the University of California, Davis, in the journal Nature. Returning plant diversity to farmland could be a key step toward sustainable pest control.

A missing influence in keeping diversity within the academy?A new study of science Ph.D.s who embarked on careers between 2004 and 2014 showed that while nearly two-thirds chose employment outside academic science, their reasons for doing so had little to do with the advice they received from faculty advisors, other scientific mentors, family, or even graduate school peers.

#517 Life in Plastic, Not FantasticOur modern lives run on plastic. It's in the computers and phones we use. It's in our clothing, it wraps our food. It surrounds us every day, and when we throw it out, it's devastating for the environment. This week we air a live show we recorded at the 2019 Advancement of Science meeting in Washington, D.C., where Bethany Brookshire sat down with three plastics researchers - Christina Simkanin, Chelsea Rochman, and Jennifer Provencher - and a live audience to discuss plastics in our oceans. Where they are, where they are going, and what they carry with them. Related links:...